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Buchalla, G.; Komatsubara, T. K.; Muheim, Franz; Silvestrini, L.; Artuso, M.; Asner, D. M.; Ball, P.; Baracchini, E.; Bell, G.; Beneke, M.; Berryhill, J.; Bevan, A.; Bigi, I. I.; Blanke, M.; Bobeth, Ch.; Bona, M.; Borzumati, F.; Browder, T. E.; Buanes, T.; Buchmüller, O.; Buras, A. J.; Burdin, S.; Cassel, David G.; Cavanaugh, R.; Ciuchini, M.; Colangelo, Pietro; Crosetti, G.; Dedes, A.; De Fazio, F.; Descotes-Genon, S. ... view all 126 authors View less authors (2008)
Publisher: Springer
Languages: English
Types: Unknown
Subjects: QC, High Energy Physics - Phenomenology, Particle Physics - Phenomenology, Physique des Hautes Energies - Phénoménologie, High Energy Physics - Experiment
With the advent of the LHC, we will be able to probe New Physics (NP) up to energy scales almost one order of magnitude larger than it has been possible with present accelerator facilities. While direct detection of new particles will be the main avenue to establish the presence of NP at the LHC, indirect searches will provide precious complementary information, since most probably it will not be possible to measure the full spectrum of new particles and their couplings through direct production. In particular, precision measurements and computations in the realm of flavour physics are expected to play a key role in constraining the unknown parameters of the Lagrangian of any NP model emerging from direct searches at the LHC. The aim of Working Group 2 was twofold: on one hand, to provide a coherent, up-to-date picture of the status of flavour physics before the start of the LHC; on the other hand, to initiate activities on the path towards integrating information on NP from high-pT and flavour data. With the advent of the LHC, we will be able to probe New Physics (NP) up to energy scales almost one order of magnitude larger than it has been possible with present accelerator facilities. While direct detection of new particles will be the main avenue to establish the presence of NP at the LHC, indirect searches will provide precious complementary information, since most probably it will not be possible to measure the full spectrum of new particles and their couplings through direct production. In particular, precision measurements and computations in the realm of flavour physics are expected to play a key role in constraining the unknown parameters of the Lagrangian of any NP model emerging from direct searches at the LHC. The aim of Working Group 2 was twofold: on one hand, to provide a coherent, up-to-date picture of the status of flavour physics before the start of the LHC/ on the other hand, to initiate activities on the path towards integrating information on NP from high-pT and flavour data.
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